JP2001128133A - Multi-location communication conference system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multi-location communication conference system which informs a person who participates in a multi-location communication conference in the middle of the conference of situations up to the participation time to enable the person to smoothly participate in the conference in the middle of the conference. SOLUTION: Picture and voice signals are composited by a signal compositing part 2-51, and users A, B, and C communicate with one another from the start of the conference. The signal compositing part 2-51 not only sends the composited signal to encoding parts 2-21 to 2-24 but also composites picture and voice signals of users A, B, and C to store them in a recording part 2-61. When a user D participates in the conference in the middle of the conference, the composited signal stored in the recording part 2-61 is converted to a fast forward signal by a fast forward processing part 2-71, is selected by a switching part 2-84 and is sent to the user D through the encoding part 2-24. When the fast forward signal transmitted to the user D catches up on the present time, the switching part 2-84 switches the signal to a real-time signal from the signal compositing part 2-51 to transmit it to the user D and then allows the user D to participate in the conference.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multipoint communication conference in which a plurality of users located at multipoints connect to a network by using respective client terminals, and hold a conference using audio signals and image signals via a server. It is about the system.

[0002]

2. Description of the Related Art In a multipoint communication conference system for holding a conference via a network, as shown in FIG. 6, each participant (user) connects a conference terminal 1 to an access point A at each point.
Connects to server 2 via P and network 3,
The conference is held by receiving the image signal and the audio signal of the other user synthesized / added by the server 2.

[0003] With regard to the audio signal of such a multipoint communication conference system, a method is basically used in which a server adds all audio signals except for the audio signal of a destination user and transmits the signals to all participants. Methods for reducing the communication rate of a transmission signal and reducing the load on a server have been developed as described below. Token control: One speaker is used, and the server performs token control and voice data reception and distribution. -All user distribution: Each terminal distributes audio data to all participants, and each terminal performs mixing processing.

[0004] In addition, image signals are basically multicast from a server to all users.
As with audio signals, the following communication rate reduction and server load reduction methods have been developed.・ Send only the image of the speaking user to all users. The server shrinks and combines images from each user except the sending user and sends them to all users.

FIG. 7 shows an example of a conventional system configuration.
FIG. 7 shows that, for the audio signal, the server adds all the audio signals except for the audio signal of the destination user and transmits the signal to all participants, and for the image signal, the server reduces the image from each user except the transmitting user. An example of a method of combining and transmitting to all users is shown.

In the figure, reference numeral 1 denotes a conference terminal;
Reference numeral 3 denotes an image / voice encoding unit in each conference terminal, 1-41 to 4
Reference numeral 3 denotes an image / audio decoding unit in each conference terminal, reference numeral 2 denotes a server, reference numerals 2-21 to 23 denote image / audio encoding units corresponding to each conference terminal in the server, and reference numerals 2 to 33 denote servers. An image / audio decoding unit 2-50 corresponding to each conference terminal is a signal synthesizing unit in the server.

[0007] This system configuration comprises users A, B and C.
3 shows an example of a meeting by three persons. The image and audio signals from the user A are encoded at a predetermined speed by the encoding unit 1-11 of the conference terminal 1 and sent to the server 2 via the network. The encoded signal is sent to the decoding unit 2-31 of the server.
And passed to the signal synthesis unit 2-50. The signal synthesizing unit 2-50 synthesizes the image and the audio signal of the user B similarly decoded by the decoding unit 2-32, encodes by the encoding unit 2-23, and transmits to the conference terminal 1 of the user C. I do. The user C decodes the signal sent from the server 2 by the decoding unit 1-43 to obtain the image and audio signals of the users A and B. Similarly, a combined image / audio signal of users A and C is sent to user B, and user A
, A combined image / audio signal of the users B and C is sent.

For an image signal, a signal synthesizing unit 2-50
In, images excluding the transmitting user are selected from the image signals from the respective users, and are combined into one screen after the reduction processing. Similarly, the voice signal excluding the transmitting user is selected and added to the voice signal. In this way, each user can hold a communication conference with another user.

[0009]

[0005] Such a conference involves attendees or late-goers. However, in a general conference using a conference room not via a network or when there are a plurality of participants at the same location, In the meantime, it is possible to ask neighbors about the situation up to that time.

On the other hand, when a user who uses a conference terminal alone in a communication conference via a network participates late, in order to know the progress of the conference until the participation time,
It is necessary to interrupt the meeting to listen to the explanation or confirm with another person through another line. In either case, the progress of the meeting is hindered, and there is a problem that all participants are inconvenienced.

As described above, in the conventional multipoint communication conference,
There was a problem that there was no way for the participants to know what was going on.

An object of the present invention is to notify a participant of a multi-point communication conference in a short time without interrupting the conference to a participant without interrupting the conference process up to the participation time, so that the late person can smoothly proceed in the middle. An object of the present invention is to provide a multipoint communication conference system that can participate.

[0013]

In order to solve the above-mentioned problems, the present invention comprises a plurality of client terminals and a server accommodating the plurality of client terminals via a network. In a multipoint communication conference system capable of performing a voice and image communication conference via the server, the server is a means for recording the history of the voice and image communication conference with client terminals participating in the communication conference. Means for fast-forward reproducing the history of the communication conference recorded in the recording means for the client terminal which intends to participate in the communication conference from the middle; The details of the communication conference are transmitted, and real-time audio and images are transmitted from the point in time when the reproduction reaches the current time. And having a means for switching so that.

Alternatively, the means for recording is replaced with a means for fast-forwarding and recording the details of the communication conference by voice and image with the client terminal participating in the communication conference,
Wherein the reproducing means is replaced by a means for reproducing the details of the communication conference by means of a fast-forwarded voice and image recorded in the recording means for a client terminal which intends to participate in the communication conference from the middle. I do.

[0015] Alternatively, the multi-point system comprises a plurality of client terminals and a server for accommodating the plurality of client terminals via a network, and is capable of holding a conference between the client terminals by voice and image via the server. In the communication conference system, the client terminal includes: a unit that encodes an audio signal and an image signal into encoded data for transmission; a unit that decodes the received encoded data into an audio signal and an image signal; Means for transmitting and receiving encoded data via a network, wherein the server decodes encoded data from a client terminal participating in the communication conference into an audio signal and an image signal; and The synthesized audio signal and image signal are synthesized for each client terminal participating in the communication conference and for recording. Means, means for recording the audio signal and the image signal synthesized for the recording, and fast-forwarding the audio signal and the image signal recorded in the recording means to a client terminal which intends to participate in the communication conference from the middle. Means for replaying, and for the client terminal participating in the communication conference, the synthesized real-time audio signal and image signal are selected, and for the client terminal that intends to participate in the middle, the replay is performed. Means for selecting the audio signal and the image signal, and switching to select a real-time audio signal and an image signal from the point in time when the reproduction reaches the current time, and the audio signal and the image signal selected by the switching means. Means for encoding into encoded data for transmission for each client terminal; and a code from the client terminal. And having a means for transmitting and receiving by the client terminal data and coded data of the transmission via the network.

Alternatively, the recording means may be replaced by a means for fast-forwarding and recording the audio signal and the image signal synthesized for the recording, and the reproducing means may be replaced by a client terminal which intends to participate in the communication conference halfway. The present invention is characterized in that a means for reproducing the fast-forwarded audio signal and image signal recorded in the recording means is replaced.

Alternatively, the server may include means for decoding encoded data from the client terminal participating in the communication conference into an audio signal and an image signal, and a code from the client terminal participating in the communication conference. Means for recording encoded data, means for synthesizing the decoded audio signal and image signal for each client participating in the communication conference, and encoding for transmitting the synthesized audio signal and image signal for each client terminal Means for encoding the data, means for playing back the encoded data recorded in the recording means in a fast-forward manner with respect to a client terminal which is about to participate in the communication conference, and participating in the communication conference For the client terminal, select the encoded real-time encoded data and try to join from the middle Means for selecting the reproduced encoded data for the client terminal and switching to select real-time encoded data from the point in time when the reproduction reaches the current time; and encoded data from the client terminal. And means for transmitting and receiving the encoded data selected by the switching means for each client terminal via a network.

Alternatively, the recording means may be replaced with a means for fast-forwarding and recording encoded data from a client terminal participating in the communication conference, and the reproducing means may be joined in the communication conference halfway. A means for reproducing the fast-forwarded encoded data recorded in the recording means for the client terminal.

According to the present invention, for a participant who wants to join from the middle of a multipoint communication conference, the process of the communication conference using voice and images stored in the server is reproduced in a fast-forward manner, and when the current time is reached. By switching to real-time audio and video in the, the details of the meeting up to the time of participation can be reproduced and provided to the participants in a short period of time, so that participants on the way and those who are late can interrupt the conference without interruption. Be able to grasp the progress of the teleconference, and to be able to participate in the middle smoothly.

[0020]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 shows an example of a system configuration according to a first embodiment of the present invention. In the figure, reference numeral 1 denotes a conference terminal (client terminal); 1-11 to 14 are image / speech coding units in each conference terminal; 1-41 to 44 are images / videos corresponding to each conference terminal in each conference terminal. An audio decoding unit, 2 is a server, 2-21 to 24 are image / audio encoding units corresponding to each conference terminal in the server, 2-31 to 34 are image / audio decoding units in the server, 2- 51 is a signal synthesizer in the server, 2-6
1 is a recording unit in the server, 2-71 is a fast-forward processing unit for reproducing a fast-forward signal in the server, 2-81 to 83 are switches corresponding to each conference terminal in the server, and 2-91 is a switch in the server. It is a control unit. Although the conference terminal 1 and the server 2 each have means for transmitting and receiving encoded data, they are omitted in FIG. 1 for simplification (the same applies to the following embodiments). ).

In the following, an outline of the operation in the case where the user D joins the conference in progress by the three users A, B and C late or in the middle is shown.

From the start of the conference, the video and audio signals from the user A are encoded at a predetermined rate by the encoding section 1-11 of the conference terminal 1 and sent to the server 2 via the network. The coded signal is decoded by the decoding unit 2-31 of the server 2 and passed to the signal synthesis unit 2-51. Signal synthesis unit 2
At -51, the image and the audio signal of the user B similarly decoded by the decoding unit 2-32 are combined, encoded by the encoding unit 2-23, and transmitted to the user C. User C is the decryption unit 1
By decoding the signal sent from the server 2 by -43, the image and audio signals of the users A and B are obtained. Similarly, a combined image / voice signal of users A and C is sent to user B, and a combined image / voice signal of users B and C is sent to user A.

In the above communication, the switching units 2-81 to 83
Is selecting the signal from the signal synthesis unit 2-51. The switching units 2-81 to 83 and the image / audio signal synthesizing unit 2-5
For the processing in 1, the control unit 2-91 performs setting control.

For the image signal, the signal synthesizing section 2-51
In, images excluding the transmitting user are selected from the image signals from the respective users, and are combined into one screen after the reduction processing. Similarly, for the audio signal, an image excluding the transmitting user is selected and added. In this way, users A, B, and C perform mutual communication from the start of the conference.

At this time, the signal synthesizing section 2-51 sends the synthesized signal to the encoding sections 2- 21 to 24, and at the same time, the user A,
The sound signal and the image signal of B and C are synthesized, and a recording unit 2-
61.

Next, when the user D joins the conference from the middle, the conference pattern (audio / image signal) stored in the recording unit 2-61 is sent to the user D in the fast-forward processing unit 2-.
At 71, the signal is converted into a fast-forward signal, and the switching unit 2-8
4 and sent via the encoder 2-24.
Since the signal transmitted to the user D is a fast-forward signal, it is possible to catch up with the current point in time after a certain time. Upon catching up to the current time point, under the control of the control unit 2-91, the switching unit 2-84 switches to the signal from the signal combining unit 2-51 and transmits a real-time signal to the user D. From this point on, user D will participate in the conference.

FIG. 2 shows the relationship between the elapsed time and the received signal of the user D at this time. Note that while the user D is receiving the fast-forward signal, the signals of the user D are not combined with the users A, B, and C, but a telop signal or the like is combined to indicate that the user D is participating in the middle. It is possible.

Then, from the time when the transmission of the real-time signal to the user D is started, a composite signal of the users A, B, and C is given to the user D, and the users B and B are sent to the user A.
A composite signal of C and D, and a user A, C,
A composite signal of D and a composite signal of users A, B and D are transmitted to user C. The selection of the composite signal is performed by the control unit 2-
The control 91 controls the current time and the time of the fast-forward signal. As an example of the time management method, the recording unit 2
Also record the time when storing the meeting pattern in -61,
A method of successively comparing the recording time and the current time at the time of reproduction to determine a point in time catching up with the current point in time, and a point in time when the stored data to be reproduced any more during reproduction is lost in the recording unit 2-61, There is a method to judge.

Next, the fast-forward processing will be described. FIG. 3 shows an example of fast-forward processing for an image signal and an audio signal. In the case of an image signal, fast-forwarding can be easily realized by thinning out image frames every several frames as shown in FIG. For example, if the data is thinned out every other frame, the reproduction speed is doubled. In the case of a voice signal, fast-forwarding can be realized by cutting a silent section or a section having a small amplitude (signal power) as shown in FIG. The reproduction speed can be changed by adjusting the signal power threshold value when cutting.

FIG. 4 shows a second embodiment of the present invention.

In the embodiment shown in FIG. 4, the signal of the signal synthesizing section 2-52 is input to the fast-forward processing section 2-72 as the signal to be stored in the server 2, and the thinned signal is recorded in the recording section 2-72.
62. By accumulating the decimated signals, the recording capacity can be reduced. This method is effective when the fast-forward magnification is recorded at a preset value, and therefore does not need to be changed during reproduction. The selection of signals by the switching units 2-81 to 84 and the control of transmission / reception of encoded data, encoding, decoding, signal synthesis, and the like for the conference terminal 1 which is about to join midway are the same as those in the first embodiment. is there. The selection of the signal is controlled by the control unit 2-92 managing the current time and the time of the fast-forward signal in the same manner as in the first embodiment.

FIG. 5 shows a third embodiment of the present invention.

The embodiment shown in FIG. 5 shows a method in which the server 2 does not accumulate and record the synthesized signal, but directly accumulates the coded signal of each user. Usually, in a teleconference, an encoding method of an image signal is MPEG (Moving Picture) in order to reduce a communication speed.
High-efficiency coding such as Experts Group) is used. Therefore, it is possible to store the decoded signal in the recording unit 2-63 with a smaller capacity than storing the decoded signal. In MPEG, processes of intra-frame encoding (I picture), prediction encoding from a past frame (P picture), and bidirectional prediction encoding (B picture) are used. In the fast-forward processing unit 2-73,
The fast-forward processing can be performed by reproducing only the I picture or the I picture and the P picture. The switching units 2-85 to 88 select the coded data reproduced and processed by the fast-forward processing unit 2-73 for the conference terminal 1 to be joined in the middle. The encoding unit 2-53 selects encoded data obtained by encoding the real-time image / audio signal synthesized by the conference terminal in the unit 2-53. The signal selection is controlled by the control unit 2-93 managing the current time and the time of the fast-forward signal in the same manner as in the first embodiment.
Control of transmission and reception of encoded data, encoding, decoding, signal synthesis, and the like are the same as in the first embodiment.

In the third embodiment, the coded data is fast-forwarded by thinning or the like and then stored in a recording unit, and the coded data that has been fast-forwarded is reproduced by a conference terminal that is to participate in the middle. You may make it.

As described above, according to the present invention, a participant / late-participant in the middle of a conference can grasp the progress up to that time in a short time without interrupting the conference, and can smoothly join in the middle. .

[0037]

As described above, according to the present invention,
In a multipoint communication conference, the process of the meeting up to the participation time is reproduced and provided to the participant in a fast-forward manner to the participant, so that the late person can grasp the progress up to that time without interrupting the conference It is possible to participate smoothly on the way.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration example of a multipoint communication conference according to a first embodiment of the present invention.

FIG. 2 is a diagram illustrating a reception signal of a participant on the way;

FIGS. 3A and 3B are diagrams illustrating an example of fast-forward processing.

FIG. 4 is a diagram showing a configuration example of a multipoint communication conference according to a second embodiment of the present invention.

FIG. 5 is a diagram illustrating a configuration example of a multipoint communication conference according to a third embodiment of the present invention.

FIG. 6 is a system configuration diagram of a general multipoint communication conference.

FIG. 7 is a diagram illustrating a configuration example of a multipoint communication conference according to a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Conference terminal (client terminal) 1-111 ... Image / audio | voice encoding part 1-41-144 ... Image / audio | voice decoding part 2 ... Server 2-21-24 ... Image / audio | voice encoding part 2-31 ... 34: image / sound decoding unit 2-51, 2-52, 2-53 ... signal synthesis unit 2-61, 2-62, 2-63 ... recording unit 2-71, 2-72, 2-73 ... Fast-forward processing unit 2-81-84, 2-85-88 ... Switch 2-9-1, 2-92, 2-93 ... Control unit

Claims (6)

[Claims] 1. A multi-point system comprising a plurality of client terminals and a server accommodating the plurality of client terminals via a network, wherein a communication conference by voice and image can be performed between the client terminals via the server. In the communication conference system, the server is a unit that records the history of the communication conference by voice and image with the client terminal participating in the communication conference, and a client terminal that intends to participate in the communication conference from the middle. Means for playing back the details of the teleconference recorded in the recording means in a fast-forward manner; and transmitting the replayed details of the teleconference to a client terminal which is about to join from the middle, and wherein the reproduction is performed at the current time. And means for switching to transmit real-time audio and images from the time when the Multipoint conference system that. 2. The communication means according to claim 1, wherein said recording means is replaced by means for fast-forwarding and recording the details of a communication conference by voice and image with a client terminal participating in said communication conference. 2. A multipoint communication system according to claim 1, wherein said means for playing back the details of the teleconference by means of the fast-forwarded voice and image recorded in said recording means for a client terminal which is to join from the middle of the multipoint communication. Conference system. 3. A multi-point system comprising a plurality of client terminals and a server accommodating the plurality of client terminals via a network, wherein a communication conference using voice and image can be performed between the client terminals via the server. In the communication conference system, the client terminal includes: a unit that encodes an audio signal and an image signal into encoded data for transmission; a unit that decodes the received encoded data into an audio signal and an image signal; Means for transmitting and receiving encoded data via a network, wherein the server decodes encoded data from a client terminal participating in the communication conference into an audio signal and an image signal; and For synthesizing the converted audio signal and image signal for each client terminal participating in the communication conference and for recording Means for recording an audio signal and an image signal synthesized for the recording; and fast-forwarding the audio signal and the image signal recorded in the recording means to a client terminal which intends to participate in the communication conference from halfway. Means for reproducing, selecting the synthesized real-time audio signal and image signal for the client terminal participating in the communication conference, and reproducing the reproduced real-time audio signal and image signal for the client terminal attempting to participate in the middle of the communication conference. Means for selecting an audio signal and an image signal so as to select a real-time audio signal and an image signal from the point in time when the reproduction reaches the current time; and a client for switching the audio signal and the image signal selected by the switching means. Means for encoding into encoded data for transmission for each terminal, and a code from the client terminal Multipoint conference system, characterized in that it comprises a means for transmitting and receiving data and coded data of the transmission via the network by the client terminal. 4. A client terminal which attempts to participate in the communication conference in the middle of the communication conference, wherein the recording means is replaced with a means for fast-forwarding and recording an audio signal and an image signal synthesized for the recording. 4. A multipoint communication conference system according to claim 3, wherein said means for reproducing fast-forwarded audio and image signals recorded in said recording means is replaced with means for reproducing. 5. A means for decoding encoded data from a client terminal participating in the communication conference into an audio signal and an image signal, and a code from a client terminal participating in the communication conference. Means for recording encoded data; means for combining the decoded audio signal and image signal for each client participating in the communication conference; and encoding for transmitting the synthesized audio signal and image signal for each client terminal. Means for encoding into data; means for playing back encoded data recorded in the recording means in a fast-forward manner with respect to a client terminal which is about to participate in the communication conference in the middle; and participating in the communication conference For the client terminal, select the encoded real-time encoded data, and Means for selecting the reproduced encoded data for the client terminal and switching to select real-time encoded data from the time when the reproduction reaches the current time; and encoded data from the client terminal. 3. The multipoint communication conference system according to claim 2, wherein said system further comprises means for transmitting and receiving the encoded data selected by said switching means for each client terminal via a network. 6. The recording means may be replaced with a means for fast-forwarding and recording coded data from a client terminal participating in the communication conference, and the reproducing means may participate in the communication conference halfway. 6. The multipoint communication conference system according to claim 5, wherein said means for reproducing said fast forwarded encoded data recorded in said recording means for said client terminal is replaced.